Vibrating Breast Pad with Air Ventilation

ABSTRACT

A vibrating breast pad with air ventilation, including: a breast pad main body and a micro vibration component; wherein the micro vibration component can be easily fitted into a receiving hole found at one end of the breast pad main body and be fixed to that position via the position-fixing part; the receiving hole is combined with a passing-through air vent, which is combined with a row of air ducts across the other end of said receiving hole, and exhaust vents are installed thereof; and during use, the activation component is pressed to actuate the vibration motor and the breasts of the wearer are massaged by vibration, and the fan starts to rotate and evenly distributes the airflow through the air vent and row of air ducts towards the exhaust vent and thus the breast pad can prevent hot feeling and achieve ventilation and dissipation of heat.

FIELD OF THE INVENTION

The present invention relates to a breast pad, and more particularly to a breast pad that can be placed inside a brassiere, which not only provides massage function to the breast via vibration, but also has air ventilation and heat dissipation characteristics when used under clothes.

DESCRIPTION OF RELATED ART

With progress over time, women's interest on clothing has increased and they started to be more particular about what they wear. While present day women want to have the most beautiful appearance, they also give particular importance to their breast lines among other female curves, so that women generally want to have both well developed and curved breasts. Besides cosmetic surgery, most women select to use brassiere that helps maintain a favorable breast shape.

Conventional brassiere structures have left and right cups which cover the wearer's breasts in a fixed manner, such that the left and right cups are used to provide support by covering the breasts from outside, and also have shoulder straps and back straps which provide hanging and tightening support, respectively. Besides providing above given supporting and protecting features to the wearer, conventional brassieres also provide the effects of concentrating and raising the breast line.

The prior art brassiere design trend roughly has two main important points. The first one is to provide a distinct curved steel piece at the bottom of the cups in order to support and raise the breasts of the wearer, so that prevent sagging of the breasts. The second one is to provide a pad with a predetermined thickness at the vicinity of the cup bottom in order to raise the breasts and provide pockets within the lining of the pads comprising liquids of different specific gravities, so that when the wearer moves, these two kind of liquids with different specific gravities would impact on each other, or magnetic pieces are placed around the perimeter of the cups to achieve a massaging effect on the breasts with the purpose of obtaining a stimulating system for promoting breast development.

Since the above described pockets found at the brassiere internal layer can only provide stimulating effect following movement of the wearer, therefore the massaging effect generated on the wearer's breasts is limited and causes upwards squeezing effect on the breasts. Moreover, the emphasis of the design is on the curved steel piece and the pad, which are airtight and thus may easily lead to accumulation of sweat around the skin near the perimeter of the cup in terms of use for long time and cause uncomfortable situations for the wearer such as inflammation.

Furthermore, a pocket made of a membrane layer can be filled with sponge or silicone type of material. In this case, the pad pocket surface and the wearer's skin may become inseparably close, so that they stick to each other, and therefore the wearer is generally exposed to a local hot and uncomfortable situation.

SUMMARY OF THE INVENTION

In view of the aforementioned problems of the prior art, it is a primary objective of the present invention to provide a breast pad, and more particularly a breast pad that can be placed inside a brassiere, which not only provides massage function to the breast via vibration, but also has air ventilation and heat dissipation characteristics when used under clothes.

To achieve the aforementioned objective, the present invention vibrating breast pad with air ventilation comprises: a breast pad main body and a micro vibration component; wherein the micro vibration component can be fitted into a receiving hole found at one end of the breast pad main body and be fixed to that position via the position-fixing part; the receiving hole is combined with a passing-through air vent, which is combined with a row of air ducts across the other end of said receiving hole, and said row of air ducts are formed of plurality of concave interlinked grooves positioned on the inner surface of the breast pad main body, and exhaust vents are installed on said grooves of said breast pad main body; and said micro vibration component comprises an open-ended casing, a vibration motor, a battery, an activation component, and a fan, said vibration motor is coupled to said fan, and said fan is positioned close to the open end within the casing, and said fan is positioned adjacent to said air vent.

During use of the brassiere, the activation component is pressed to actuate the vibration motor and generate vibration, so that the breasts of the wearer are massaged by vibration, and at the same time, the fan starts to rotate and evenly distributes the airflow through the air vent and row of air ducts towards the exhaust vent and thus the breast pad can prevent hot feeling and achieve ventilation and dissipation of heat.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a three dimensional disassembled view of the present invention structure;

FIG. 2 is an assembled view of the present invention structure;

FIG. 3 is a partial cutaway view of the present invention structure;

FIG. 4 is a schematic view of the main part structure of the present invention breast pad;

FIG. 5 is a three dimensional disassembled view of a first embodiment of the present invention structure;

FIG. 6 is a three dimensional disassembled view of a second embodiment of the present invention structure;

FIG. 7 is a schematic view of the present invention structure in the state of use;

FIG. 8 is another schematic view of the present invention structure in the state of use;

FIG. 9 is another schematic view of the present invention structure in the state of use.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The characteristics of the present invention can be understood better when following preferred embodiments are considered together with the drawings provided.

FIG. 1 is a three dimensional disassembled view of the present invention structure; and FIG. 2 is an assembled view of the present invention structure; and FIG. 3 is a partial cutaway view of the present invention structure showing the present invention vibrating breast pad with air ventilation, wherein said breast pad 1 comprises at least: a breast pad main body 10 and a micro vibration component 20; wherein,

Said breast pad main body 10 is formed as a whole by injection molding of a soft rubber material, and the soft rubber material can provide the breast pad main body 10 with the characteristics of flexibility and dilatational viscoelastisicity by means of silicone or TPR (thermoplastic rubber). Said breast pad main body 10 comprises a receiving hole 11 on one side and this receiving hole 11 is combined with an air vent 12 that runs through the structure. Said receiving hole 11 has a position-fixing part 111. Moreover, at the opposite side, said air vent 12 combines the other end of said receiving hole 11 with a row of air ducts 13. Said row of air ducts 13 is formed of plurality of interlinked grooves 131 opened on the breast pad main body 10 inner surface, and the depth of said grooves vary between 2 to 5 mm, and the optimum depth thereof is 3 mm; while the width of said grooves 131 varies between 2 to 5 mm, the optimum width of said grooves 131 is 3 mm, and said breast pad main body 10 comprises at least one exhaust vent 14 on said grooves 131, and said exhaust vent 14 diameter is between 1 to 2 mm, and the optimum diameter is 2 mm;

Said micro vibration component 20 is placed into the receiving hole 11 of said breast pad main body 10, and said micro vibration component 20 comprises an open-ended 211 casing 21, a vibration motor 22, a battery 23, an activation component 24, and a fan 25. Said vibration motor 22 and battery 23 are electrically connected and installed in the casing 21. Said activation component 24 is positioned on one end of the casing 21. Said vibration motor 22 is coupled to said fan 25 and said fan 25 is positioned inside the casing 21 close to the open end 211 thereof. Said fan 25 is adjacent to said air vent 12 and also said casing 21 comprises at least one air intake vent 212 positioned at the other side of the open end 211 that is the opposite of the fan 25.

During use, the connection point of said receiving hole 11 and air vent 12 have a difference in diameter which forms said position-fixing part 111. Moreover, said receiving hole 11 diameter is greater than said air vent 12 diameter. By means of the position-fixing part 111, the vibration motor 22 enters into said receiving hole 11 and stays in a fixed position. Furthermore, the breast pad main body 10 has dilatational viscoelasticity thanks to the soft rubber material, which enables the receiving hole 11 cover the vibration motor 22 in a tense and inseparably close manner. The vibration motor 22 actuates when the activation component 24 is pressed. The vibration generated by the vibration motor 22 is transmitted to said breast pad main body 10 and at the same time the vibration motor 22 drives the fan 25, so that it rotates and generates ventilating current and the speed of the ventilating current increases via the air intake vent 212 which helps the air flow in a smooth and easy manner. The ventilating current goes through the open end 211 and air vent 12 by flowing through the interlinked grooves 131 of the row of air ducts 13 and the airflow goes out by passing through all of the exhaust vents 14, so that it provides the effect of dissipating heat.

Of course, as shown in FIG. 4, plurality of convex granules 15 can be positioned on the inner surface of said breast pad main body 10, so that, when in use, the breast pad main body 10 form gaps with the convex granules 15 and the contact surface, so that the airflow can escape through the gaps and increase the ventilation of the entire body and thus contribute to rapid dissipation of heat. Moreover, at least one row of wind channels 17 are placed inside said receiving hole 11 and the vibration motor 22 is inserted into said receiving hole 11. When the fan 25 is rotated to generate airflow, the air intake vent 212 and the row of wind channels 17 form an air way, so that not only the flow of air becomes smoother, but also heat can be dissipated and the fan 25 is prevented from catching fire due to tight conditions.

Moreover, depth of said grooves can vary between 2-5 mm and the optimum depth is 3 mm; while the width of said grooves can vary between 2-5 mm and the optimum width is 3 mm. In this way, when the fan generates airflow, the grooves help scattering of the airflow and the optimum transmission rate can be achieved. Besides, the diameter of said exhaust vent can vary between 1-2 mm and the optimum diameter is 2 mm. These dimensions allow the airflow be directed to the exhaust vent through the grooves and achieve optimum smooth flow conditions.

FIG. 5 shows a first embodiment of the present invention, in which the breast pad 1 is combined with a functional membrane 30, so that the breast pad 1 would be a multi-functional breast pad. Said membrane 30 shape is opposite to the shape of said row of air ducts 13. Moreover, said membrane 30 is equipped with far infrared elements or said membrane 30 is equipped with negative ion elements. Said grooves 131 comprise plurality of concave parts 132 and said membrane 30 comprises plurality of convex parts 31 that are positioned opposite to said plurality of concave parts 132. The membrane 30 blocks the concave parts 132 by means of the convex parts 31, so that they are laminated on the row of air ducts 13. Moreover, said membrane 30 comprises a through hole 32 across said exhaust vent 14 and when in use, the membrane 30 can release far infrared ray or negative ions, which would be emitted and spread out through the through hole 32 and the exhaust vent 14.

FIG. 6 shows a second embodiment of the present invention, in which said breast pad main body 10 comprises plurality of cavities 16 on the inner surface. Said cavities 16 can be filled with functional granules 40 and diameter of said cavities 16 would vary between 5-8 mm. Said functional granules 40 have more or less spherical shape with 5-8 mm size. Furthermore, breast pad main body 10 has dilatational viscoelasticity via the soft rubber material in order to enable the cavity 16 fix said functional granules 40, so that they would have compact tension. Said functional granules 40 having more or less spherical shape contact with the skin directly or indirectly and provide a comfortable feeling. Also, since said functional granules 40 can have far infrared granules or said functional granules 40 can have negative ion granules, during use, they can release far infrared rays or negative ions, so that the user can experience the beneficial health protection effects for the body.

To summarize the first and second embodiments, according to FIG. 7, a piece of cloth 50 can be placed on the outer surface of the breast pad main body 10 and said piece of cloth 50 can be made of lace material or air permeable (breathing) material and it is worn next to the skin and provides a comfortable feeling to the wearer.

Moreover, according to FIG. 8, a piece of cloth 50 is symmetrically placed on said breast pad main body 10 in order to form a sports type brassiere, which is convenient to wear and provides a comfortable feeling to the wearer.

Moreover, according to FIG. 9, said breast pad main body 10 can be placed in a brassiere 60, in which said brassiere 60 comprises symmetrical pad pockets 61 on its two sides, so that said breast pad main body 10 can be separately positioned in an easy manner and thus the user can easily match and put the brassiere 60 into dress or take it out of the dress. 

What is claimed is:
 1. A vibrating breast pad with air ventilation, comprising: a breast pad main body, one side of which comprising a receiving hole, said receiving hole being combined with an air vent that passes through all of its structure, said receiving hole comprising a position-fixing part, and said air vent being combined with a row of air ducts across the other end of said receiving hole, and said row of air ducts being formed of plurality of interlinked grooves arranged in a concave manner at the inner surface of the breast pad main body, such that said breast pad main body comprises at least one exhaust vent passing through said grooves; a micro vibration component, which is positioned inside the receiving hole of said breast pad main body and fixed by means of a position-fixing part, said micro vibration component comprising an open-ended casing, a vibration motor, a battery, an activation component, and a fan, such that said vibration motor is coupled to said fan and said fan is positioned close to the open end within the casing, said fan is adjacent to said air vent, and said activation component is positioned at the other end of the casing.
 2. A vibrating breast pad with air ventilation according to claim 1, wherein said breast pad main body comprises plurality of cavities on its inner surface.
 3. A vibrating breast pad with air ventilation according to claim 2, wherein said cavity can comprise functional granules, and said cavity diameter varies between 5-8 mm, and said functional granules can have more or less spherical shape with 5-8 mm size, and said functional granules can be far infrared granules or negative ion granules.
 4. A vibrating breast pad with air ventilation according to claim 3, wherein said casing comprises an air intake vent positioned across the fan at the other side of the open end.
 5. A vibrating breast pad with air ventilation according to claim 3, wherein at least one row of wind channel is positioned in said receiving hole.
 6. A vibrating breast pad with air ventilation according to claim 2, wherein a membrane is laminated to said row of air ducts, and said membrane shape is opposite of the shape of said row of air ducts, and said grooves comprise plurality of concave parts, and said membrane comprises plurality of convex parts positioned across said plurality of concave parts, such that said membrane comprises a through hole positioned opposite to said exhaust vent.
 7. A vibrating breast pad with air ventilation according to claim 6, wherein said membrane comprises far infrared elements or negative ion elements spread on said membrane.
 8. A vibrating breast pad with air ventilation according to claim 6, wherein said breast pad main body is formed as a whole by injection molding of a soft rubber material, and the soft rubber material is silicone or thermoplastic rubber.
 9. A vibrating breast pad with air ventilation according to claim 6, wherein said casing comprises an air intake vent positioned opposite to the fan at the other side of the open end.
 10. A vibrating breast pad with air ventilation according to claim 6, wherein said breast pad main body comprises plurality of convex granules on its inner surface.
 11. A vibrating breast pad with air ventilation according to claim 6, wherein a row of wind channel is positioned inside said receiving hole.
 12. A vibrating breast pad with air ventilation according to claim 6, wherein the combination place of said receiving hole and the air vent has a difference in diameter, which forms the position-fixing part, and the diameter of said receiving hole is greater than the diameter of said air vent.
 13. A vibrating breast pad with air ventilation according to claim 6, wherein the diameter of said exhaust vent varies between 1-2 mm, and the diameter is 2 mm.
 14. A vibrating breast pad with air ventilation according to claim 6, wherein said grooves have a depth between 2-5 mm, and said grooves have a width between 2-5 mm.
 15. A vibrating breast pad with air ventilation according to claim 6, wherein a piece of cloth is placed to the outer surface of said breast pad main body.
 16. A vibrating breast pad with air ventilation according to claim 6, wherein a piece of cloth is symmetrically placed on said breast pad main body in order to form a brassiere.
 17. A vibrating breast pad with air ventilation according to claim 6, wherein said breast pad main body can be positioned in a brassiere and the two sides of said brassiere can comprise symmetrical pad pockets, so that said breast pad main body can be separately positioned.
 18. A vibrating breast pad with air ventilation, comprising: a breast pad main body, which is formed as a whole by injection molding of a soft rubber material, and which comprises a receiving hole at one side, said receiving hole being combined with an air vent that passes through all of its structure, said receiving hole comprising a position-fixing part, and said air vent being combined with a row of air ducts across the other end of said receiving hole, and said row of air ducts being formed of plurality of interlinked grooves arranged in a concave manner at the inner surface of the breast pad main body, such that said breast pad main body comprises at least one exhaust vent passing through said grooves, and said breast pad main body inner surface comprises a cavity and a plurality of convex granules, and at lest one row of wind channel is positioned within said receiving hole; a micro vibration component, which is positioned inside the receiving hole of said breast pad main body, said micro vibration component comprising an open-ended casing, a vibration motor, a battery, an activation component, and a fan, such that said vibration motor is coupled to said fan and said fan is positioned close to the open end within the casing, said fan is adjacent to said air vent, said activation component is positioned at the other end of the casing, and said casing comprises at least one air intake vent at the other side of the open end across the fan; a plurality of functional granules, which are positioned in said cavity; and a piece of cloth, which is placed to the outer surface of said breast pad main body.
 19. A vibrating breast pad with air ventilation, comprising: a breast pad main body, which is formed as a whole by injection molding of a soft rubber material, and which comprises a receiving hole at one side, said receiving hole being combined with an air vent that passes through all of its structure, said receiving hole comprising a position-fixing part, and said air vent being combined with a row of air ducts across the other end of said receiving hole, and said row of air ducts being formed of plurality of interlinked grooves arranged in a concave manner at the inner surface of the breast pad main body, said grooves having a depth between 2-5 mm, and said grooves having a width between 2-5 mm, said breast pad main body comprising at least one exhaust vent passing through said grooves, said breast pad main body inner surface comprising a cavity and a plurality of convex granules, and at lest one row of wind channel being positioned within said receiving hole; a micro vibration component, which is positioned inside the receiving hole of said breast pad main body, said micro vibration component comprising an open-ended casing, a vibration motor, a battery, an activation component, and a fan, such that said vibration motor is coupled to said fan and said fan is positioned close to the open end within the casing, said fan is adjacent to said air vent, said activation component is positioned at the other end of the casing, and said casing comprises at least one air intake vent at the other side of the open end across the fan; a membrane with a shape that is opposite to the shape of said row of air ducts, said membrane comprising plurality of convex parts positioned opposite to said plurality of concave parts, such that said membrane comprises a through hole opposite to said exhaust vent; a piece of cloth, which is placed to the outer surface of said breast pad main body. 